Influence of metal bar lever-arm on screws detorque for dental prosthesis implant supported

Influence of metal bar lever-arm on screws detorque for dental prosthesis implant supported

Abstract Introduction The cantilever length of implant-supported fixed prosthesis metal structure has been considered an important factor to transfer occlusion forces to the dental implant. Objective This study evaluated the influence of different extensions of cantilevers of Branemark protocol implant prosthesis when submitted to mechanical thermocycling by screw loosening evaluation. Material and method The groups G10 (n = 5), G15 (n = 5) and G20 (n = 5) were formed according to the distance in millimeters between the force application site in the cantilever and the center of the last implant. All metal structures (n = 15) were submitted to a 120 N cyclic vertical load in a chewing simulation machine (MSM-Elquip, São Carlos-SP, Brazil) under controlled temperature and moisture conditions. Two hundred and fifty thousand mechanical cycles were performed with a frequency of 2 Hz that simulates a masticatory activity similar to 3 months. To compare the data obtained regarding the loosening of the metal structure screws, implant position and sites of load application, the analysis of variance with two factors and the Tukey test were performed. Result Statistical analysis showed that the G10 group presented greater torque loss, statistically different from G15 (p = 0.001) and G20 (p = 0.002), and there was no significant difference between groups G15 and G20. Conclusion It can be concluded from the results that all the screws presented torque loss after simulation of 3 month masticatory activity, suggesting the need for periodical evaluation to prevent failures in the treatment.

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Main Authors: MATSUMOTO,Wilson, MACEDO,Ana Paula, ALMEIDA,Rossana Pereira de, SIMIONATO,Anselmo Agostinho, HOTTA,Takami Hirono
Format: Digital revista
Language:English
Published: Universidade Estadual Paulista Júlio de Mesquita Filho 2020
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1807-25772020000100428
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spelling oai:scielo:S1807-257720200001004282021-02-11Influence of metal bar lever-arm on screws detorque for dental prosthesis implant supportedMATSUMOTO,WilsonMACEDO,Ana PaulaALMEIDA,Rossana Pereira deSIMIONATO,Anselmo AgostinhoHOTTA,Takami Hirono Dental implants dental prosthesis denture, implant-supported dental implant-abutment design Abstract Introduction The cantilever length of implant-supported fixed prosthesis metal structure has been considered an important factor to transfer occlusion forces to the dental implant. Objective This study evaluated the influence of different extensions of cantilevers of Branemark protocol implant prosthesis when submitted to mechanical thermocycling by screw loosening evaluation. Material and method The groups G10 (n = 5), G15 (n = 5) and G20 (n = 5) were formed according to the distance in millimeters between the force application site in the cantilever and the center of the last implant. All metal structures (n = 15) were submitted to a 120 N cyclic vertical load in a chewing simulation machine (MSM-Elquip, São Carlos-SP, Brazil) under controlled temperature and moisture conditions. Two hundred and fifty thousand mechanical cycles were performed with a frequency of 2 Hz that simulates a masticatory activity similar to 3 months. To compare the data obtained regarding the loosening of the metal structure screws, implant position and sites of load application, the analysis of variance with two factors and the Tukey test were performed. Result Statistical analysis showed that the G10 group presented greater torque loss, statistically different from G15 (p = 0.001) and G20 (p = 0.002), and there was no significant difference between groups G15 and G20. Conclusion It can be concluded from the results that all the screws presented torque loss after simulation of 3 month masticatory activity, suggesting the need for periodical evaluation to prevent failures in the treatment.info:eu-repo/semantics/openAccessUniversidade Estadual Paulista Júlio de Mesquita FilhoRevista de Odontologia da UNESP v.49 20202020-01-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S1807-25772020000100428en10.1590/1807-2577.04720
institution SCIELO
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countrycode BR
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libraryname SciELO
language English
format Digital
author MATSUMOTO,Wilson
MACEDO,Ana Paula
ALMEIDA,Rossana Pereira de
SIMIONATO,Anselmo Agostinho
HOTTA,Takami Hirono
spellingShingle MATSUMOTO,Wilson
MACEDO,Ana Paula
ALMEIDA,Rossana Pereira de
SIMIONATO,Anselmo Agostinho
HOTTA,Takami Hirono
Influence of metal bar lever-arm on screws detorque for dental prosthesis implant supported
author_facet MATSUMOTO,Wilson
MACEDO,Ana Paula
ALMEIDA,Rossana Pereira de
SIMIONATO,Anselmo Agostinho
HOTTA,Takami Hirono
author_sort MATSUMOTO,Wilson
title Influence of metal bar lever-arm on screws detorque for dental prosthesis implant supported
title_short Influence of metal bar lever-arm on screws detorque for dental prosthesis implant supported
title_full Influence of metal bar lever-arm on screws detorque for dental prosthesis implant supported
title_fullStr Influence of metal bar lever-arm on screws detorque for dental prosthesis implant supported
title_full_unstemmed Influence of metal bar lever-arm on screws detorque for dental prosthesis implant supported
title_sort influence of metal bar lever-arm on screws detorque for dental prosthesis implant supported
description Abstract Introduction The cantilever length of implant-supported fixed prosthesis metal structure has been considered an important factor to transfer occlusion forces to the dental implant. Objective This study evaluated the influence of different extensions of cantilevers of Branemark protocol implant prosthesis when submitted to mechanical thermocycling by screw loosening evaluation. Material and method The groups G10 (n = 5), G15 (n = 5) and G20 (n = 5) were formed according to the distance in millimeters between the force application site in the cantilever and the center of the last implant. All metal structures (n = 15) were submitted to a 120 N cyclic vertical load in a chewing simulation machine (MSM-Elquip, São Carlos-SP, Brazil) under controlled temperature and moisture conditions. Two hundred and fifty thousand mechanical cycles were performed with a frequency of 2 Hz that simulates a masticatory activity similar to 3 months. To compare the data obtained regarding the loosening of the metal structure screws, implant position and sites of load application, the analysis of variance with two factors and the Tukey test were performed. Result Statistical analysis showed that the G10 group presented greater torque loss, statistically different from G15 (p = 0.001) and G20 (p = 0.002), and there was no significant difference between groups G15 and G20. Conclusion It can be concluded from the results that all the screws presented torque loss after simulation of 3 month masticatory activity, suggesting the need for periodical evaluation to prevent failures in the treatment.
publisher Universidade Estadual Paulista Júlio de Mesquita Filho
publishDate 2020
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1807-25772020000100428
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